Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents
Biofilm eradication from medical implants is of fundamental importance, and the treatment of biofilm-associated pathogen infections on inaccessible biliary stents remains challenging. Magnetically driven microrobots with controlled motility, accessibility to the tiny lumen, and swarm enhancement eff...
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sg-ntu-dr.10356-1620592022-10-03T04:15:13Z Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents Sun, Mengmeng Chan, Kai Fung Zhang, Zifeng Wang, Lu Wang, Qinglong Yang, Shihao Chan, Shannon Melissa Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li Lee Kong Chian School of Medicine (LKCMedicine) Science::Medicine Biofilm Eradication Liquid Metal Biofilm eradication from medical implants is of fundamental importance, and the treatment of biofilm-associated pathogen infections on inaccessible biliary stents remains challenging. Magnetically driven microrobots with controlled motility, accessibility to the tiny lumen, and swarm enhancement effects can physically disrupt the deleterious biostructures while not developing drug resistance. Magnetic urchin-like capsule robots (MUCRs) loaded with magnetic liquid metal droplets (MLMDs, antibacterial agents) are designed using natural sunflower pollen, and the therapeutic effect of swarming MUCR@MLMDs is explored for eradicating complex mixtures of bacterial biofilm within biliary stents collected from patients. The external magnetic field triggers the emergence of the microswarm and induces MLMDs to transform their shape into spheroids and rods with sharp edges. The inherent natural microspikes of MUCRs and the obtained sharp edges of MLMDs actively rupture the dense biological matrix and multiple species of embedded bacterial cells by exerting mechanical force, finally achieving synergistic biofilm eradication. The microswarm is precisely and rapidly deployed into the biliary stent via endoscopy in 10 min. Notably, fluoroscopy imaging is used to track and navigate the locomotion of microswarm in biliary stents in real-time. The microswarm has great potential for treating bacterial biofilm infections associated with medical implants. The research work was financially supported by the Hong Kong Research Grants Council (RGC) with project No E-CUHK401/20 and with project No. GRF14300621; the ITF project with Project No MRP/036/18X funded by the HKSAR Innovation and Technology Commission (ITC); the Croucher Foundation Grant with Ref. No. CAS20403, and the CUHK internal grants. 2022-10-03T04:15:13Z 2022-10-03T04:15:13Z 2022 Journal Article Sun, M., Chan, K. F., Zhang, Z., Wang, L., Wang, Q., Yang, S., Chan, S. M., Chiu, P. W. Y., Sung, J. J. Y. & Zhang, L. (2022). Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents. Advanced Materials, 34(34), e2201888-. https://dx.doi.org/10.1002/adma.202201888 0935-9648 https://hdl.handle.net/10356/162059 10.1002/adma.202201888 35474246 2-s2.0-85130454436 34 34 e2201888 en Advanced Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Science::Medicine Biofilm Eradication Liquid Metal |
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Science::Medicine Biofilm Eradication Liquid Metal Sun, Mengmeng Chan, Kai Fung Zhang, Zifeng Wang, Lu Wang, Qinglong Yang, Shihao Chan, Shannon Melissa Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| description |
Biofilm eradication from medical implants is of fundamental importance, and the treatment of biofilm-associated pathogen infections on inaccessible biliary stents remains challenging. Magnetically driven microrobots with controlled motility, accessibility to the tiny lumen, and swarm enhancement effects can physically disrupt the deleterious biostructures while not developing drug resistance. Magnetic urchin-like capsule robots (MUCRs) loaded with magnetic liquid metal droplets (MLMDs, antibacterial agents) are designed using natural sunflower pollen, and the therapeutic effect of swarming MUCR@MLMDs is explored for eradicating complex mixtures of bacterial biofilm within biliary stents collected from patients. The external magnetic field triggers the emergence of the microswarm and induces MLMDs to transform their shape into spheroids and rods with sharp edges. The inherent natural microspikes of MUCRs and the obtained sharp edges of MLMDs actively rupture the dense biological matrix and multiple species of embedded bacterial cells by exerting mechanical force, finally achieving synergistic biofilm eradication. The microswarm is precisely and rapidly deployed into the biliary stent via endoscopy in 10 min. Notably, fluoroscopy imaging is used to track and navigate the locomotion of microswarm in biliary stents in real-time. The microswarm has great potential for treating bacterial biofilm infections associated with medical implants. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Sun, Mengmeng Chan, Kai Fung Zhang, Zifeng Wang, Lu Wang, Qinglong Yang, Shihao Chan, Shannon Melissa Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li |
| format |
Article |
| author |
Sun, Mengmeng Chan, Kai Fung Zhang, Zifeng Wang, Lu Wang, Qinglong Yang, Shihao Chan, Shannon Melissa Chiu, Philip Wai Yan Sung, Joseph Jao Yiu Zhang, Li |
| author_sort |
Sun, Mengmeng |
| title |
Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| title_short |
Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| title_full |
Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| title_fullStr |
Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| title_full_unstemmed |
Magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| title_sort |
magnetic microswarm and fluoroscopy-guided platform for biofilm eradication in biliary stents |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162059 |
| _version_ |
1746219658795548672 |